Basic educational system: four years | Enrollment target: | Education: technical secondary school | Professional code: 08030 1
Training objectives
Training objectives
Training objectives: This major cultivates professional knowledge, practical ability and comprehensive quality, grasps basic theories, professional knowledge and professional skills in the field of measurement, control and instruments, grasps technical methods of information acquisition, transmission, processing and application, has the ability of technical integration and comprehensive design and application of instruments in the field of measurement and control, and can engage in scientific research, design and manufacturing, technical development, applied research, quality control and production management in various departments of national economy.
Training requirements: Students in this major mainly study measurement theory, instrument design and integration technology of measurement and control system, and learn the theory and technology of optics, mechanical engineering, electronics and computer science and automatic control related to measurement, control and instruments. Through various teaching links and engineering practice, I have received the basic training of modern measurement and control technology, and have the ability to design, develop and integrate measurement and control systems and instruments.
Graduates should have the following knowledge and abilities:
1. Master the basic theory and professional knowledge of measurement theory, measurement control technology, measurement and control system and instrument analysis, design and integrated application;
Master the basic skills and methods of analyzing and solving practical problems in the fields of measurement, control and instrument, and have the ability to comprehensively apply knowledge in the fields of optics, machinery, electronics, computer technology and control;
3. Have the basic ability of critical thinking, innovative consciousness and scientific research;
4. Familiar with policies and regulations on product quality control and safety production at home and abroad, have a certain understanding of technical specifications and standards commonly used in this major at home and abroad, and be familiar with basic knowledge such as market economy and enterprise management;
5. Master at least one foreign language, be proficient in reading foreign language materials of this major, and have the initial communication skills in an international perspective and cross-cultural environment;
6. Have good professional ethics, professionalism and social responsibility;
7. Have a solid natural science foundation, good humanistic quality, strong language expression, communication and teamwork skills;
8. Have lifelong learning awareness and the ability to acquire new knowledge.
Main subjects: instrument science and technology, control science and engineering, optical engineering, information and communication engineering.
Core knowledge fields: mathematical foundation, sensing and information acquisition, measurement theory and technology, test signal processing, computer technology, measurement and control bus and data communication, control theory and technology, instrument design and manufacture, instrument performance test and evaluation, measurement and control system analysis, design and integration, etc.
Example of core courses:
Example 1: circuit foundation (64 hours), computer structure and logic design (64 hours), electronic circuit foundation (64 hours), signal and system (48 hours), automatic control principle (52 hours), microcomputer system and interface (48 hours), engineering mechanics (54 hours), engineering optics (56 hours). Precision machinery design foundation (64 hours), intelligent instrument design technology (56 hours), test signal analysis and processing (48 hours), error theory and data processing (34 hours), modern control theory (34 hours), navigation and positioning control and application (32 hours), and the elective courses of disciplines and majors shall not be less than 12 credits.
Example 2: fundamentals of circuit analysis (68 hours), signal and system (68 hours), circuit signal and system experiment (15 hours), fundamentals of analog electronic technology (60 hours), digital circuit and logic design (46 hours), C language programming (45 hours), microcomputer principle and system design (78 hours) and electronic circuit experiment (78 hours). Lecture on automatic control theory (46 hours), sensor and signal conditioning (60 hours), electronic measurement technology (54 hours), principle and programming of single chip microcomputer (54 hours), automatic test technology (54 hours), software technology foundation (54 hours), and new technology of measurement and control and instrument.
Example 3: engineering mechanics (5 1 class hour), engineering drawing (80 class hours), mechanical design basis (85 class hours), circuit and electronic technology (128 class hours), automatic control principle (40 class hours), microcomputer principle and its application (56 class hours), sensor technology (48 class hours) and error theory. Instrument circuit design (40 hours), applied optics (40 hours), physical optics (48 hours), measurement and control circuit (40 hours), thermal process control system (40 hours), automatic detection technology (80 hours), precision instrument design (40 hours), precision measurement technology (80 hours), and the elective courses of disciplines and majors shall not be less than 20.5 credits.
Main practical teaching links: metalworking practice, electronic practice, production enterprise practice, course experiment, course design, innovative practice, engineering design, graduation design (thesis), social practice investigation, etc.
Main professional experiments: sensor technology experiment, test theory and detection technology experiment, instrument design experiment, measurement system modeling and data processing experiment, intelligent instrument and networked instrument experiment, comprehensive design experiment of measurement and control system, instrument performance test and evaluation, etc.
Length of study: four years.
Degree awarded: Bachelor of Engineering. 0804 material category
Professional ability requirements
Professional ability requirements
The main contents of professional teaching
The main contents of professional teaching
Sensor technology and application, electromagnetic field and electromagnetic wave technology, intelligent instrument technology, precision machinery and instrument, measurement and control instrument design, photoelectric testing technology and system, automatic control theory foundation, electrical automatic control, optical design, intelligent detection technology and virtual instrument and application train the following professional directions: automatic control.
Major (skill) direction
Major (skill) direction
Instrument and electronic enterprises: product research and development, instrument design and manufacturing, operation management, measurement, testing and testing; Industrial and engineering enterprises: engineering technology, automation control, process control, instrument engineering.
Example of vocational qualification certificate
Example of vocational qualification certificate
Examples of continuing learning majors
Employment direction
Employment direction
Employment direction: The main employment direction includes the following three directions:
Intelligent instrument direction
The direction of intelligent instruments is mainly engaged in the research and development and testing of software and hardware of instruments and electronic products, and can also be engaged in the automatic control of instruments. This is an electronic direction. It is best to learn C language, assembly language, single chip microcomputer and labview well and have relevant practical development experience. At first, the salary will not be too high, usually between 5500 and 6000 (the salary of different units will vary a lot). Graduate students graduate from different places, and the money is different. There should be about 6500 in Beijing, which is a start. After working for a period of time, it depends on your strength.
Measurement technology and instrument direction
This direction is mainly engaged in measurement, testing, quality inspection and other work. Academic research in this direction is a bit heavy, and it is difficult for ordinary undergraduates to find suitable jobs.
Technical direction of computer measurement and control
A bright spot in this direction is image detection and processing, which is a computer-oriented course. Similar to the second one, they are all engaged in detection and measurement, but the direction of computer measurement and control technology is biased towards the application of computer operating platform. Now there is a shortage of computer talents, and it is easy to find high-paying jobs after learning well, with an average of about 6000.
Corresponding occupation (post)
Corresponding occupation (post)
Other information:
The specialty of measurement and control technology and instrument belongs to engineering. The national undergraduate majors are divided into 12 disciplines: philosophy, economics, law, education, literature, history, science, engineering, agriculture, medicine, management, art, measurement and control technology and instruments. What kind of professional education level does it belong to? The catalogue of twelve undergraduate majors of measurement and control technology and instruments is 1, and there are 1 majors and 4 majors under philosophy. 2. There are four majors in economics, 17 major; 3. There are 6 majors and 32 majors under the law category; 4. Pedagogy has two majors, 16; 5. There are 3 majors and 76 majors in literature; 6. Under the historical category, there are 1 professional category and 6 majors; 7. There are 12 professional classes and 36 majors under the category of science; 8. There are 3 1 majors and 169 majors under the engineering category; 9. There are 7 majors and 27 majors in agronomy; 10, there are 44 specialties under the medical category, of which11; 1 1. There are 9 majors and 46 majors under the management category; 12, there are 5 majors and 33 majors under the art category; Introduction to Measurement and Control Technology and Instrument Specialty 1, Specialty Introduction Measurement and Control Technology and Instrument Specialty is a high-tech intensive comprehensive discipline formed by the mutual penetration of precision machinery, electronics, circuits, optics, automatic control, computer and information technology, and it is the only undergraduate major in China's instrument industry. It has a wide range of specialties: instrument design and manufacturing, industrial automation control, launching and monitoring of rockets, missiles and satellites, deep-sea detectors and aerospace vehicles. The specialty of measurement and control technology and instruments trains senior engineering and technical personnel who have the basic knowledge and application ability in the design and manufacture of precision instruments and measurement and control, and can be engaged in the design and manufacture of precision instruments and systems, the design and manufacture of precision machinery, industrial automatic control and other fields in various departments of the national economy. 2. Specialized courses include precision instrument design, intelligent mechanical design, intelligent instrument design, electronic technology foundation, electrotechnics, sensor principle and application, microcomputer principle and application, control engineering foundation, signal and test system, digital measurement and control technology, measurement and control circuit design and MEMS.